Nano-structuring may help superconductors overcome a decades-long barrier to use in more powerful motors and magnets.
A phase change at absolute zero temperature may provide key insights into the decades-old mystery of high-temperature superconductivity.
Exploiting the self-organizing nature of atoms to block heat transfer and improve thermal-to-electrical energy conversion.
New porous, electrically conductive materials have potential uses in fuel cells, batteries, and solar photovoltaics.
The reversed field pinch’s helical state reveals nonlinear physics of plasma self-organization.
Particle may help explain the origins of mass.
Accurate prediction of El Niño-Southern Oscillation is crucial for simulating extreme maximum temperature.
Discovery could provide a deeper understanding of the dynamics of the three quarks enslaved inside the nucleon.
Precision analytical techniques developed for fundamental experiments in nuclear physics now enable routine measurements of ultra-low concentrations of Krypton radioisotopes in samples of water, ice, and gas.
Squeezing creates new class of material built from clusters of carbon atoms.
House-of-Cards structure leads to improved zeolite catalyst.
New calculations have quantified the boundaries and uncertainties of the ‘chart of the nuclides’—the extended periodic table of all matter.
